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Miocene Aged Antarctic Ash
Bill Leonard NDSU Petrology Geol 422 April 29, 2014
Purpose To compare and correlate 5 ash samples to one another and other known volcanic ash deposits
Samples: 04-31d 13.85 MA 04-31k 13.62 MA 02-38c 13.72 MA 00-30 13.94 MA 05-55 14.07 MA
In a Section
100 m to South
1km North: large error possible in date
15 km East
Setting
McMurdo dry valleys
(lewis 2007)
Sample Preservation
Minimal evidence of hydration cracking
Very minimal reworking Very little clay formation
large glass shards, sample 00-30 (Lewis 2007)
Methods Data was acquired by adhering ash samples to an aluminum blank and performing an SEM analysis
Sample 04-31D
Sample 04-31K
Sample 02-38c
Sample 00-30
Sample 05-55
Results on TAS Diagram
Legend
= 04-31D
= 04-31K
= 02-38 C
= 00-30
= 05-55
Results
The ash layers are of fairly similar composition and lead to the conclusion that the ash layers come from a similar source and most likely the same volcano.
There is however a great variance in grain size, leading to a few possibilities, a change in long term paleo winds, or a large range in the violence of volcanic explosions.
(Sarna-Wojcicki 1981)
While Phonolites and Trachytes are uncommon the case is not so in a more isolated area like Antarctica
Cause of Variance
With evidence of major climate change in this time period, when the polar climate became established (Lewis et al.), and the fact that most volcanoes will have great variations in both volume of material and violence of eruptions throughout their lifetime leaves this an open ended question.
Conclusion
With very little difference in chemical composition between samples, there are still things that can be determined from the varying grain sizes of these samples, and may possibly hold some information to a vastly changing time in paleo climate.
References Lewis, A.R., Marchent, D.R., Ashworth, A.C., Hemming, S.R., Machlus, M.L.,
Major middle Miocene global cli mate change: Evidence from East Antarctica and the Transantarctic Mountains. Geological Society of America, November/December 2007, 1449-1461
Wojcicki et al., Ash Properties and dispersal by wind. USGS. 2004.